CN218141220U - Goods transfer device in carriage - Google Patents

Abstract

The utility model provides a goods transfer device in carriage belongs to commodity circulation conveyer technical field. The problems that in the prior art, a certain randomly specified goods in a carriage cannot be unloaded independently, the unloading process is troublesome, and the flexibility is poor are solved. This goods transfer device in carriage includes a plurality of transfer units that set up on the carriage floor, a plurality of transfer units are adjacent setting in proper order along the carriage fore-and-aft direction, every transfer unit all includes that horizontal transfer piece and along the carriage left and right sides adjacent two supporting platform that set up, be equipped with vertical transfer piece on every supporting platform respectively, vertical transfer piece homoenergetic on every supporting platform can independent operation in order to drive the goods and move forward or backward, horizontal transfer on every transfer unit homoenergetic enough independent operation in order to drive the goods and move left or right. The utility model discloses can promote the flexibility and the efficiency that the goods unloaded greatly, have light, practical advantage simultaneously.

Description

Goods transfer device in carriage

Technical Field

The utility model belongs to the technical field of the commodity circulation conveyer, a goods transfer device in carriage is related to.

Background

When the goods of the truck are unloaded, the goods are generally moved away from the edge of the carriage floor by a forklift at present, so the goods need to be moved on the carriage floor, and the goods are moved and positioned on the floor difficultly and difficultly due to large sliding friction when the goods are moved on the carriage floor, so the loading and unloading process of the traditional goods is very troublesome.

In view of the above problems, the patent (application number: CN 201920357936.8) discloses a wheel-chain hybrid vehicle-mounted automatic loading and unloading device, which comprises a hidden roller supporting device, a hidden chain transmission device and a filling plate. This handling device assembles into one set of wheel chain hybrid vehicle-mounted automatic handling device through the hidden gyro wheel strutting arrangement of multiunit, hidden chain drive and infill panel, when equipment needs the during operation, makes the gas tape all rise gyro wheel and chain through on-vehicle automatic air supply to lift up the goods, the chain drives the quick business turn over carriage of goods. Although the device can make things convenient for the goods to remove in the carriage, realizes the automatic loading and unloading of goods, still there are following not enough: in general, a common carriage only has a carriage door at the tail of the carriage, and goods need to enter and exit from the carriage door at the tail. If different goods are transported in the carriage, and meanwhile, the goods required to be unloaded are not close to the carriage door, the loading and unloading device cannot realize that the goods are only flexibly turned over to be unloaded, but the goods close to the inside can be unloaded only by unloading the goods outside the carriage, so that the unloading mode is troublesome, manpower is wasted, and the operation time is long.

At present, in order to solve the problem, people usually select a carriage with a side part capable of being opened, and the side part is opened to realize the independent unloading of goods at different positions in the carriage; or a non-box type flat car is adopted, and then the goods at different positions in the car can be lifted out independently by utilizing the lifting equipment, so that the goods can be unloaded.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a goods transfer device in carriage, the utility model provides a prior art is difficult to independently unload arbitrary appointed certain goods in the carriage, leads to the trouble of discharge process, the poor problem of flexibility.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a goods shifting device in carriage, including a plurality of shifting units that set up on the carriage floor, a plurality of shifting units are adjacent setting in proper order along the carriage fore-and-aft direction, every shifting unit all includes that horizontal shifting piece and two supporting platform that adjacent set up along the carriage left and right sides direction, be equipped with vertical shifting piece on every supporting platform respectively, vertical shifting piece homoenergetic on every supporting platform can independent operation in order to drive the goods and move forward or backward, horizontal shifting piece homoenergetic on every shifting unit homoenergetic moves left or right with the drive goods and moves.

Goods are put in the carriage and transported, when needing to unload, because a plurality of transfer units are adjacent setting in proper order along the carriage fore-and-aft direction, and every transfer unit all includes horizontal transfer piece and along the carriage about adjacent two supporting platform that set up, horizontal transfer piece can the independent operation for the staff can control wherein a certain goods and control between two supporting platform and remove left or right, and other goods of this in-process can be motionless. Similarly, because the longitudinal conveying pieces on each supporting platform can independently operate to drive the goods to move forwards or backwards, an operator can control one of the goods to move forwards or backwards in the carriage, and other goods can be fixed in the process. Through such design, if need shift out the goods that is close to the locomotive position in with the carriage, only need remove the goods that is close to the rear of a vehicle position earlier, rely on the goods regular front and back in the carriage, remove about, can will be close to the goods turnover of locomotive position and come out, realize the unloading of this goods. Obviously, this goods transfer device can unload arbitrary appointed certain goods in the carriage alone, has promoted flexibility and the convenience that the goods unloaded greatly.

As the preferred, the goods adopts the tray goods, can rationally set up supporting platform's size like this according to the size of standard tray for supporting platform's big small dimension is equivalent with the tray size, places a tray goods on every supporting platform.

In the cargo transferring device for the carriage, each supporting platform is provided with a lifting structure for driving the longitudinal transferring member on the corresponding supporting platform to lift, the upper surface of the longitudinal transferring member is higher than the upper surface of the transverse transferring member after the longitudinal transferring member lifts, and the upper surface of the longitudinal transferring member is lower than the upper surface of the transverse transferring member after the longitudinal transferring member lowers. When the longitudinal shifting piece is lifted, the upper surface of the longitudinal shifting piece is higher than that of the transverse shifting piece after the longitudinal shifting piece is lifted, so that the goods are contacted with the longitudinal shifting piece and supported by the longitudinal shifting piece, and the goods can be driven to move forwards or backwards by the operation of the longitudinal shifting piece. When the longitudinal moving piece falls down, the upper surface of the longitudinal moving piece is at a position lower than the upper surface of the transverse moving piece, so that the goods is in contact with the transverse moving piece but not in contact with the longitudinal moving piece, and the transverse moving piece can drive the goods to move leftwards or rightwards. Through the design, when the goods move, the goods only contact with one of the longitudinal moving piece or the transverse moving piece, so that the goods move more smoothly.

In the above cargo transferring device for a carriage, the transverse transferring member is a chain or a belt arranged along the width direction of the carriage, the longitudinal transferring member is a roller arranged on the supporting platform, the roller is horizontally arranged, the axial lead is arranged along the width direction of the carriage, each supporting platform is respectively provided with a first driving source capable of driving each roller on the corresponding supporting platform to rotate, and each transferring unit comprises a second driving source capable of driving the corresponding chain or belt on the transferring unit to rotate. The gyro wheel level sets up and the axial lead sets up along carriage width direction for after the gyro wheel jacking, the gyro wheel can carry the goods to move forward or backward, and the removal process is stable. Set up driving source one on every supporting platform, every transfer unit sets up driving source two, has realized that the gyro wheel homoenergetic on every supporting platform independently rotates, and every transfers chain or belt on the unit can independently operate, and then realizes that the goods is regular around in the carriage, controls about for the goods homoenergetic of optional position has enough to have enough to meet the need out in the carriage.

In the cargo transferring device for a carriage, the transferring unit comprises a bottom plate, two supporting platforms of the transferring unit are arranged on the bottom plate in a bilateral symmetry manner, each supporting platform comprises at least two guide seats arranged in the front-back direction of the carriage, a roller frame is arranged in each guide seat, and a plurality of rollers sequentially arranged in the front-back direction of the carriage are arranged on each roller frame. Through setting up the bottom plate, all set up two supporting platform and some annex spare parts on the bottom plate for it is high to transfer the unit integrated level, transfers the unit and is convenient for carry and the concatenation on the carriage floor, thereby is convenient for this transfer device installation in the carriage. Every supporting platform is last to have two at least guide ways that set up along the carriage fore-and-aft direction, and the gyro wheel passes through the gyro wheel frame to be installed in the guide way, and such setting makes the last gyro wheel that forms multiseriate parallel arrangement of supporting platform, and the goods is transferred the process and is received the support of multiseriate gyro wheel, can promote the stability that the goods was transferred. Simultaneously, this setting makes the length of gyro wheel shorter for the supporting platform quality can reduce, and then guarantees that this cargo transferring device's dead weight can not occupy too many whole car total mass, promotes this cargo transferring device's practicality.

In the cargo transferring device for a vehicle cabin, the lifting structure is an elongated air bag disposed in the guide seat and located below the roller frame, and the air bag can drive the roller frame to ascend when inflated and can drive the roller frame to move downwards when deflated. The long-strip-shaped air bag has large contact area with the roller frame, less loss on the roller frame and lower requirement on structural strength. Meanwhile, the air bag has the advantage of light weight, and the weight of the conveying device can be reduced.

In the cargo transferring device for the carriage, the lifting structure is a cylinder, a piston rod of the cylinder is vertically arranged, and the upper end of the piston rod is connected with the roller frame.

In the cargo transferring device for the carriage, every two adjacent rollers on the same roller carrier are respectively in transmission connection through a synchronous belt, a transmission shaft arranged along the width direction of the carriage is respectively arranged on each supporting platform, a roller sleeve is arranged on each roller carrier on the transmission shaft, and a driving source I is arranged beside the transmission shaft and can drive the transmission shaft to rotate. The driving source drives the transmission shaft to rotate, and the transmission shaft transmits power to the rollers on different roller frames, so that each roller on the supporting platform can actively rotate instead of passively rotating along with the movement of the goods, and the goods can stably and smoothly move forwards or backwards on the supporting platform.

In the above cargo transferring device for a carriage, the bottom plate is provided with two strip-shaped chain bases arranged along the width direction of the carriage, the two chain bases are respectively positioned at the front side and the rear side of the bottom plate, each chain base is provided with the chain groups symmetrically arranged in the left-right direction, each chain group comprises a driving chain wheel, a driven chain wheel and two or more chains arranged side by side, and the two ends of each chain are respectively wound on the driving chain wheel and the driven chain wheel. Two chain bases are located the preceding side and the back side department of bottom plate respectively for goods front portion and rear portion receive the support of chain respectively, and then promote the goods and place the time and remove the stability of removal process. Every chain group all includes the chain that sets up side by side more than two or two, can promote the area of contact of chain group and goods, makes the goods place steadily on the chain, and the atress of every chain obtains sharing moreover, can protect hoisting device's life to the chain.

In the goods transfer device in foretell carriage, transfer the unit and still include the universal driving shaft that sets up along the carriage fore-and-aft direction, the one end of universal driving shaft with correspond transfer the unit on one of them chain base drive sprocket be connected, the other end of universal driving shaft with correspond transfer the unit on another chain base drive sprocket be connected, through two transmission connections of hold-in range between the drive sprocket on the same chain base, second setting of driving source is on the bottom plate, second driving source is connected and can drive this drive sprocket with one of them drive sprocket and rotate. When the driving source II drives the linkage shaft to rotate, the linkage shaft drives the driving chain wheels at two ends to rotate, at the moment, each chain on the same transfer unit synchronously rotates under the action of the synchronous belt II, and then goods are stably driven to move leftwards or rightwards.

In the cargo transferring device for the carriage, a top sealing plate for sealing the space between the two roller frames is fixedly connected between the two adjacent roller frames, the upper surface of the top sealing plate is lower than the upper surface of the transverse transferring piece, and the first driving source and the second driving source are both positioned below the top sealing plate. The first driving source and the second driving source are motors. The setting up of top shrouding makes in the carriage be the leveling state, and driving source one and driving source two all are located the below of top shrouding and have realized hiding, and then make things convenient for the business turn over of people and goods, and promote the security. The upper surface of top shrouding is less than the upper surface of horizontal transfer piece for horizontal transfer piece is driving the in-process that the goods removed, and the goods bottom can not contact with the top shrouding, and then promotes the smooth and easy nature that the goods was transferred.

Compared with the prior art, the cargo transferring device of the carriage has the following advantages:

1. this device passes through the goods and regularly around in the carriage, moves about, can unload certain goods appointed wantonly in the carriage, has promoted flexibility and efficiency that the goods was unloaded greatly.

2. When the device is used for loading and unloading goods, semi-automatic and intelligent operation can be realized, so that the device has the advantages of safety and labor saving, and is suitable for modern logistics operation.

3. In the device, a single transfer unit has light weight, and the whole dead weight of the transfer device can not occupy too much total mass of the whole vehicle, thereby having the advantages of light weight and practicability.

Drawings

Fig. 1 is a schematic perspective view of the cargo transfer device.

Fig. 2 is a plan view of the cargo transferring device.

Fig. 3 is a perspective view of one of the transfer units.

Fig. 4 is a schematic view of the transfer unit with the top cover plate hidden.

Fig. 5 is an enlarged view at a in fig. 4.

FIG. 6 is a schematic view of the structure in which the second driving source drives the lateral transfer member.

Fig. 7 is a schematic view of the driving source-driving longitudinal transfer member.

Fig. 8 is an exploded view of the components within the guide shoe.

Fig. 9 is a sectional view at the guide shoe.

Fig. 10 is a schematic view showing a state of use of the cargo transferring device.

Fig. 11 is a schematic view of the operation of the cargo transfer device.

In the figure, 1, a transfer unit; 2. a lateral transfer member; 3. a support platform; 4. a longitudinal transfer member; 5. a first driving source; 6. a second driving source; 7. a base plate; 8. a guide seat; 9. a roller frame; 10. an air bag; 11. a first synchronous belt; 12. a drive shaft; 13. a chain base; 14. a chain set; 141. a drive sprocket; 142. a driven sprocket; 143. a chain; 15. a linkage shaft; 16. a second synchronous belt; 17. a top sealing plate; 18. a tail plate.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1 and 2, the cargo transfer device for a vehicle body includes four transfer units 1 provided on a floor of the vehicle body, and the four transfer units 1 are disposed adjacent to each other in the longitudinal direction of the vehicle body. In the actual manufacturing process, the output of the transfer unit 1 may be increased or decreased, such as three, five, six, etc., depending on the length dimension of the car. Every transfer unit 1 all includes horizontal transfer 2 and along the carriage left and right sides direction adjacent two supporting platform 3 that set up, is equipped with the vertical piece 4 that carries that is used for supporting the goods on every supporting platform 3 respectively, and vertical piece 4 that carries on every supporting platform 3 all can independently operate in order to drive the goods and move forward or backward, and horizontal transfer 2 on every transfer unit 1 all can independently operate in order to drive the goods and move left or right.

Specifically, as shown in fig. 3 and 4, the transfer unit 1 includes a bottom plate 7 and the two support platforms 3 of the transfer unit 1 are disposed on the bottom plate 7 in bilateral symmetry. Referring to fig. 5, the transverse moving part 2 is a chain 143 arranged along the width direction of the carriage, the longitudinal moving part 4 is a roller arranged on the supporting platforms 3, the roller is horizontally arranged, the axial lead is arranged along the width direction of the carriage, each supporting platform 3 is provided with a first driving source 5 capable of driving each roller on the corresponding supporting platform 3 to rotate, and each moving unit 1 comprises a second driving source 6 capable of driving the transverse moving part 2 on the corresponding moving unit 1 to rotate. Each supporting platform 3 comprises three guide seats 8 arranged along the front and back direction of the carriage, a roller carrier 9 is arranged in each guide seat 8, and a plurality of rollers sequentially arranged along the front and back direction of the carriage are arranged on each roller carrier 9. Of course, in the actual manufacturing process, two, four or five guide seats 8 may be provided on each support platform 3.

As shown in fig. 3 and 4, a top sealing plate 17 for sealing the space between the two adjacent roller frames 9 is further fixedly connected between the two adjacent roller frames 9, the upper surface of the top sealing plate 17 is lower than the upper surface of the lateral transfer member 2, and the first driving source 5 and the second driving source 6 are both located below the top sealing plate 17. The first driving source 5 and the second driving source 6 are both motors. The setting of top shrouding 17 makes in the carriage be the horizontality, and the below that driving source one 5 and driving source two 6 all are located top shrouding 17 has realized hiding, and then the business turn over of convenient people and goods, and promotes the security.

As shown in fig. 4, 5 and 6, two strip-shaped chain bases 13 are arranged on the bottom plate 7 and arranged along the width direction of the carriage, the two chain bases 13 are respectively located at the front side edge and the rear side edge of the bottom plate 7, each chain base 13 is provided with a chain group 14 which is arranged in a bilateral symmetry manner, each chain group 14 comprises a driving sprocket 141, a driven sprocket 142 and two chains 143 arranged side by side, and two ends of each chain 143 are respectively wound on the driving sprocket 141 and the driven sprocket 142. The transfer unit 1 further comprises a linkage shaft 15 arranged along the front-back direction of the carriage, one end of the linkage shaft 15 is connected with a driving chain wheel 141 on one chain base 13 on the corresponding transfer unit 1, the other end of the linkage shaft 15 is connected with a driving chain wheel 141 on the other chain base 13 on the corresponding transfer unit 1, the driving chain wheels 141 on the same chain base 13 are in transmission connection through a synchronous belt II 16, a driving source II 6 is arranged on the bottom plate 7, and the driving source II 6 is connected with one driving chain wheel 141 and can drive the driving chain wheel 141 to rotate. When the driving source II 6 drives the linkage shaft 15 to rotate, the linkage shaft 15 drives the driving sprockets 141 at the two ends to rotate, and at the moment, each chain 143 on the same transfer unit 1 synchronously rotates under the action of the synchronous belt II 16, so that the goods are stably driven to move leftwards or rightwards.

As shown in fig. 7, every two adjacent rollers on the same roller frame 9 are respectively connected by a synchronous belt i 11, a transmission shaft 12 arranged along the width direction of the carriage is respectively arranged on each supporting platform 3, a roller sleeve is arranged on each roller frame 9 and is sleeved on the transmission shaft 12, and a driving source i 5 is arranged beside the transmission shaft 12 and can drive the transmission shaft 12 to rotate. The first driving source 5 drives the transmission shaft 12 to rotate, and the transmission shaft 12 transmits power to the rollers on different roller frames 9, so that each roller on the supporting platform 3 can actively rotate.

As shown in fig. 8 and 9, each supporting platform 3 is provided with a lifting structure for driving the longitudinal conveying element 4 to lift, the upper surface of the longitudinal conveying element 4 is lower than the upper surface of the transverse conveying element 2 after the longitudinal conveying element 4 is lowered, and the upper surface of the longitudinal conveying element 4 is higher than the upper surface of the transverse conveying element 2 after the longitudinal conveying element 4 is lifted. Specifically, the lifting structure is an elongated air bag 10 which is arranged in the guide seat 8 and is positioned below the roller frame 9, when the air bag 10 is inflated, the roller frame 9 can be driven to ascend, and when the air bag 10 is deflated, the roller frame 9 can also move downwards.

When the longitudinal conveying element 4 is lifted, the goods are contacted with the longitudinal conveying element 4 and supported by the longitudinal conveying element 4, and the longitudinal conveying element 4 can be driven to move forwards or backwards by the operation of the longitudinal conveying element 4. When the longitudinal transfer member 4 is dropped, the upper surface of the longitudinal transfer member 4 is positioned lower than the upper surface of the lateral transfer member 2, so that the load is in contact with the lateral transfer member 2 without being in contact with the longitudinal transfer member 4, and the lateral transfer member 2 is operated to move the load to the left or right. Through the design, when moving, the goods are only contacted with one of the longitudinal conveying piece 4 or the transverse conveying piece 2, so that the goods can move more smoothly.

As shown in fig. 10, the goods are preferably pallet goods, so that the size of the supporting platform 3 can be reasonably set according to the size of a standard pallet, the size of the supporting platform 3 is equivalent to that of the pallet, and one pallet goods is placed on each supporting platform 3.

The working principle of the transfer device will be briefly described with reference to fig. 10 and 11:

in this transfer device, because a plurality of transfer units 1 are adjacent setting in proper order along the carriage fore-and-aft direction, and every transfer unit 1 all includes horizontal transfer 2 and along the carriage left and right sides adjacent two supporting platform 3 that set up, horizontal transfer 2 can the independent operation for the staff can control wherein a certain goods and control left and right two supporting platform 3 between and move, and other goods of this in-process can be motionless. Similarly, since the longitudinal moving member 4 on each supporting platform 3 can operate independently to drive the goods to move forward or backward, the operator can control one of the goods to move forward or backward in the carriage, and the other goods can be stationary.

Normally, the containers are all provided with tail boards 18, goods are transported in the carriage, and when the number (5) in fig. 11 needs to be unloaded separately, the number (8) goods can be moved backwards separately firstly, so that the number (8) goods are moved onto the tail boards 18, then the number (7) goods are moved rightwards, and then the number (5) goods can be operated to move backwards onto the tail boards 18, so that the loading and unloading of the number (5) goods are realized. Similarly, other optional goods can be regularly moved back and forth and left and right in the carriage, so that the goods can be turned over, and the goods can be unloaded. Under the actual conditions, how regular removal is carried out to goods in the carriage, is controlled through on-vehicle control system for this goods transfer device can realize fool's operation, and the practicality is strong.

In practice, as shown in fig. 10, only seven pallet goods are usually placed on the eight supporting platforms 3 in the carriage for transportation, so that the procedure of initially moving the goods onto the carriage tail plate 18 can be omitted, and meanwhile, for some trucks without the carriage tail plate 18, the pallet goods can be moved out and unloaded in any direction.

Example two

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: the lateral transfer member 2 is a belt disposed in the width direction of the carriage, and the belt is driven in the same manner as the driving chain 143 of the embodiment one, and will not be described redundantly here.

EXAMPLE III

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: the lifting structure is a cylinder which is fixed on the floor of the carriage, a piston rod of the cylinder is vertically arranged, and the upper end of the piston rod is connected with the roller carrier 9.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although 1, transfer unit is used more herein; 2. a lateral transfer member; 3. a support platform; 4. a longitudinal transfer member; 5. a first driving source; 6. a second driving source; 7. a base plate; 8. a guide seat; 9. a roller frame; 10. an air bag; 11. a first synchronous belt; 12. a drive shaft; 13. a chain base; 14. a chain set; 141. a drive sprocket; 142. a driven sprocket; 143. a chain; 15. a linkage shaft; 16. a second synchronous belt; 17. a top sealing plate; 18. tailgates, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a goods transfer device in carriage, including a plurality of transfer units (1) that set up on the carriage floor, a serial communication port, a plurality of transfer units (1) are adjacent setting in proper order along the carriage fore-and-aft direction, every transfer unit (1) all includes that horizontal transfer piece (2) and along the carriage left and right sides direction adjacent two supporting platform (3) that set up, be equipped with vertical transfer piece (4) on every supporting platform (3) respectively, vertical transfer piece (4) homoenergetic alone operation on every supporting platform (3) is in order to drive the goods and move forward or backward, horizontal transfer piece (2) homoenergetic alone operation on every transfer unit (1) is in order to drive the goods and move left or right.

2. The cargo transferring apparatus for vehicle body of claim 1, wherein each supporting platform (3) is provided with a lifting structure for driving the longitudinal transferring member (4) on the corresponding supporting platform (3) to lift, the upper surface of the longitudinal transferring member (4) is higher than the upper surface of the lateral transferring member (2) after the longitudinal transferring member (4) is lifted, and the upper surface of the longitudinal transferring member (4) is lower than the upper surface of the lateral transferring member (2) after the longitudinal transferring member (4) is lowered.

3. The cargo transfer device for the carriage as claimed in claim 2, wherein the lateral transfer member (2) is a chain (143) or a belt disposed along the width direction of the carriage, the longitudinal transfer member (4) is a roller disposed on the support platform (3), the roller is disposed horizontally, the axis of the roller is disposed along the width direction of the carriage, a first driving source (5) capable of driving each roller on the corresponding support platform (3) to rotate is disposed on each support platform (3), and each transfer unit (1) comprises a second driving source (6) capable of driving the chain (143) or the belt on the corresponding transfer unit (1) to rotate.

4. The cargo transfer device for a car as defined in claim 3 wherein said transfer unit (1) includes a bottom plate (7) and two support platforms (3) of the transfer unit (1) are symmetrically disposed on the bottom plate (7), each support platform (3) includes at least two guide seats (8) disposed along the front and rear direction of the car, a roller frame (9) is disposed in each guide seat (8), and a plurality of rollers are disposed on each roller frame (9) in sequence along the front and rear direction of the car.

5. The cargo transfer device for vehicle bodies according to claim 4, wherein the elevating structure is an elongated air bag (10) provided in the guide base (8) and located below the roller frame (9), the air bag (10) being capable of driving the roller frame (9) upward when inflated and the roller frame (9) being further capable of moving downward when the air bag (10) is deflated.

6. The cargo transferring device for vehicle body of claim 4, wherein the elevating structure is a cylinder, a piston rod of the cylinder is vertically disposed and an upper end of the piston rod is connected to the roller frame (9).

7. The cargo transferring device for the carriage as claimed in claim 4 or 5, wherein each two adjacent rollers on the same roller frame (9) are respectively connected by a synchronous belt one (11), each supporting platform (3) is provided with a transmission shaft (12) arranged along the width direction of the carriage, each roller frame (9) is provided with a roller sleeved on the transmission shaft (12), and the driving source one (5) is arranged beside the transmission shaft (12) and can drive the transmission shaft (12) to rotate.

8. The cargo transfer device for the carriage as claimed in claim 4 or 5, wherein the bottom plate (7) is provided with two strip-shaped chain bases (13) arranged along the width direction of the carriage, the two chain bases (13) are respectively located at the front side and the rear side of the bottom plate (7), each chain base (13) is provided with two chain sets (14) symmetrically left and right, each chain set (14) comprises a driving sprocket (141), a driven sprocket (142) and two or more chains (143) arranged side by side, and two ends of each chain (143) are respectively wound on the driving sprocket (141) and the driven sprocket (142).

9. The cargo transfer device for the carriage as claimed in claim 8, wherein the transfer unit (1) further comprises a linkage shaft (15) arranged along the front-rear direction of the carriage, one end of the linkage shaft (15) is connected with a driving sprocket (141) on one of the chain bases (13) on the corresponding transfer unit (1), the other end of the linkage shaft (15) is connected with a driving sprocket (141) on the other chain base (13) on the corresponding transfer unit (1), the driving sprockets (141) on the same chain base (13) are in transmission connection through a synchronous belt (16), the driving source (6) is arranged on the bottom plate (7), and the driving source (6) is connected with one of the driving sprockets (141) and can drive the driving sprocket (141) to rotate.

10. A cargo transferring apparatus for a carriage as defined in claim 4 or 5, wherein a top cover plate (17) for closing a space between the two roller frames (9) is further attached between the two adjacent roller frames (9), an upper surface of the top cover plate (17) is lower than an upper surface of the lateral transfer member (2), and the first driving source (5) and the second driving source (6) are located below the top cover plate (17).

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